Nouredanesh, M. ., & Tung, J. . (2019). IMU, sEMG, or their cross-correlation and temporal similarities: Which signal features detect lateral compensatory balance reactions more accurately?. Computer Methods and Programs in Biomedicine, 182, 105003.
Reference author: Mina Nouredanesh
First name
Mina
Last name
Nouredanesh
Nouredanesh, M. ., Li, A. W., Godfrey, A. ., Hoey, J. ., & Tung, J. . (2018). Chasing feet in the wild: A proposed egocentric motion-aware gait assessment tool. Chasing Feet in the Wild: A Proposed Egocentric Motion-Aware Gait Assessment Tool, 0\textendash0.
Niechwiej-Szwedo, E. ., Gonzalez, D. ., Nouredanesh, M. ., & Tung, J. . (2018). Evaluation of the Leap Motion Controller during the performance of visually-guided upper limb movements. PloS One, 13, e0193639.
Nouredanesh, M. ., & Tung, J. . (2018). Multimodal Ambulatory Fall Risk Assessment in the Era of Big Data. CRC Press.
Nouredanesh, M. ., Kukreja, S. L., & Tung, J. . (2016). Detection of compensatory balance responses using wearable electromyography sensors for fall-risk assessment. Detection of Compensatory Balance Responses Using Wearable Electromyography Sensors for Fall-Risk Assessment Primary Tabs, 1680\textendash1683. IEEE.
Nouredanesh, M. ., Tizhoosh, H. R., Banijamali, E. ., & Tung, J. . (2016). Radon-Gabor barcodes for medical image retrieval. Radon-Gabor Barcodes for Medical Image Retrieval, 1309\textendash1314. IEEE.
Nouredanesh, M. ., McCormick, A. ., Kukreja, S. L., & Tung, J. . (2016). Wearable vision detection of environmental fall risk using Gabor Barcodes. Wearable Vision Detection of Environmental Fall Risk Using Gabor Barcodes, 956\textendash956. IEEE.
Nouredanesh, M. ., McCormick, A. ., Kukreja, S. L., & Tung, J. . (2016). Wearable vision detection of environmental fall risks using convolutional neural networks. ArXiv Preprint arXiv:1611.00684.
Niechwiej-Szwedo, E. ., Wu, S. ., Nouredanesh, M. ., Tung, J. ., & Christian, L. W. (2021). Development of eye-hand coordination in typically developing children and adolescents assessed using a reach-to-grasp sequencing task. Human Movement Science, 80, 102868.
Nouredanesh, M. ., & Tung, J. . (2015). Machine learning based detection of compensatory balance responses to lateral perturbation using wearable sensors. Machine Learning Based Detection of Compensatory Balance Responses to Lateral Perturbation Using Wearable Sensors, 1\textendash4. IEEE.
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